Roofing systems utilizing cap shingles with self-sealing adhesives

ABSTRACT

A roofing system including a cap shingle and a method of producing a cap shingle are disclosed. In one embodiment, the cap shingle is formed with a continuous or discontinuous self-sealing adhesive that is applied along a ridgeline direction and can provide high wind resistance, without the use of hand-sealed adhesive application. In an embodiment of the method, one or more layers of a shingle material can be oriented in a machine direction with the self-sealing adhesive applied adjacent side edges of the shingle material to form the cap shingles having self-seal strips and configured to bend in the machine direction for installation of the cap shingles along a ridge of a roof.

CROSS-REFERENCE TO RELATED APPLICATION

The present application is a continuation of U.S. Pat. Application No. 17/680,454, filed Feb. 25, 2022, which claims benefit of U.S. Provisional Pat. Application No. 63/154,018, filed Feb. 26, 2021.

INCORPORATED BY REFERENCE

The disclosures and figures of U.S. Pat. Application No. 17/680,454, filed Feb. 25, 2022 and of U.S. Provisional Pat. Application No. 63/154,018, filed Feb. 26, 2021, are incorporated by reference herein for all purposes as if set forth in their entireties.

TECHNICAL FIELD

This disclosure relates generally to roofing systems and in particular to roof systems having shingles, including cap shingles adapted to fit over a ridge, hip or cap of a roof, and methods of making such shingles. Other aspects also are described.

RELATED ART

Cap shingles generally are used in roofing applications along the ridge and hip areas of a roof. Once installed, cap shingles will be exposed to wind forces, and their wind resistance may depend on the type and application of adhesives thereto. Typically, cap shingles are produced with an adhesive that is applied along a lower surface thereof. As a result, the sides of the cap shingle will not have any adhesive, which can leave these sections with less protection to withstand wind forces. Further, to achieve wind resistance to speeds of 110 mph, the cap shingles must be installed with an additional step involving the application of an adhesive in the headlap portion along the ridgeline of the ridge cap. Application of such additional adhesive is generally done by hand during the installation of the cap shingles. The correct application of this hand-applied adhesive, its durability, and resistance are critical for performance when exposed to high wind forces, as failures can occur due to a wind-induced bubble effect that can develop in sections of the cap shingles that are not sufficiently attached to the roof, either by nails or adhesive.

Accordingly, it can be seen that a need exists for cap shingles that can provide high wind resistance, without the need of hand-applied adhesives during installation. The present disclosure address these and other related and unrelated problems in the art.

SUMMARY

Briefly described, according to one aspect, a roof system includes a shingle, which, in embodiments, comprises a cap shingle with a substantially continuous or and/or a discontinuous self-sealing adhesive that is applied along a ridgeline direction of the shingles. The shingles are configured to be exposed to weather (e.g. wind, rain, snow, heat, cold, sunlight (including ultraviolet (UV) light, visible light, infrared (IR) light), hail and other impacts, etc...), including providing high wind resistance without the use of hand-sealed adhesive applications.

In addition, a method for producing a cap shingle can include orienting a web of shingle material and a self-sealing adhesive in the same direction, the self-sealing adhesive is applied along the shingle material e.g. in a ridgeline direction of the cap shingle, which does not require the need for registration thereof during the manufacturing process, including registration with one or more chop-cutters for separating the shingle material to form individual cap shingles, or where multiple cap shingles are formed together as a sheet, for forming perforation or tear lines or cuts along which individual cap shingles can be separated into individual ones from the sheet of multiple cap shingles by the roofers during its installation. Eliminating such need of registration during manufacturing process may help to increase production speeds for manufacture of such cap shingles.

Various aspects of shingles, roof systems utilizing such shingles and methods for producing such shingles are provided, and according to one aspect include, without limitation, a cap shingle comprising a first layer of shingle material having first and second side edges, a front edge, a back edge; an exposure portion, and a headlap portion adjacent the back edge defining an upper surface of the cap shingle; a second layer of shingle material positioned beneath the first layer; the second layer defining a lower surface of the cap shingle; wherein the first and second layers of shingle material are configured to bend in an arc along an axis in a ridgeline direction extending from the back edge to the front edge for installation along a ridge, hip, or rake of a roof; and an adhesive applied to the lower surface of the cap shingle; wherein the adhesive is applied adjacent both the first and second side edges of the first layer of shingle material in a ridgeline direction of the cap shingle.

In embodiments of the cap shingle, the adhesive applied adjacent the first and second side edges of the first layer of shingle material comprises a substantially continuous strip of a self-sealing adhesive. In some embodiments, the adhesive applied adjacent first and second side edges of the layer of shingle material comprises a discontinuous pattern of a self-sealing adhesive.

In embodiments of the cap shingle, the adhesive comprises a self-sealing adhesive including asphalt, filled asphalt, polymer modified asphalts; bitumen, pressure sensitive adhesives (PSA), acrylic adhesives, butyl adhesives or combinations thereof. In some embodiments, the adhesive comprises an additive including tackifiers, stabilizers, calcium carbonates, limestone fillers, graphites, intumescent additives, viscosity modified, oils, adhesion promoters, or combinations thereof.

In embodiments of the cap shingle, adhesive has a tackiness at temperatures above 70° F., and in some embodiments, the adhesive has a tackiness at temperatures above 40° F.

According to other aspects of the disclosure, a shingle is provided, comprising a layer of shingle material including an upper surface having a headlap portion adapted to be overlapped by at least one additional shingle arranged along a cap of a roof, and an exposure portion adapted to be exposed to weather, a lower surface opposite the upper surface, and first and second side edges; and at least one a self-seal strip applied to the lower surface of the layer of shingle material, adjacent each of the first and second side edges of the layer of shingle material; wherein the self-seal strip is positioned in registration with the first and second side edges of the layer of shingle material so that the self-seal strip is located at selected positions relative to a length of the shingle, or relative to tooth positions of the layer of shingle material, or relative to a shape of a backer applied to the layer of shingle material, or a combination thereof.

In embodiments of the shingle, the self-seal strips comprise a plurality of sealing features including a substantially continuous strip of self-sealing adhesive, a discontinuous pattern of self-sealing adhesive, or combination thereof.

In some embodiments, the self-seal strips comprise a self-sealing adhesive including asphalt, filled asphalt, polymer modified asphalts; bitumen, PSA, acrylic adhesives, butyl adhesives or combinations thereof.

According to another aspect of the disclosure, a method is provided, comprising (a) moving a web of shingle material along a path in a machine direction; (b) applying a self-sealing adhesive to a surface of the web of shingle material to form self-seal strips extending along the surface of the web of shingle material adjacent side edges thereof, wherein the self-seal strips are aligned in the machine direction; and (c) cutting the web of shingle material in synchronization with step (b) to form cap shingles having self-seal strips and configured to bend in the machine direction for installation of the cap shingles along a ridgeline of a ridge, hip or cap of a roof.

In embodiments, the method further comprises applying granules to an opposite surface of the web of shingle material, wherein the opposite surface of the web of shingle material with the granules applied thereto is configured to define an exposure portion and a headlap portion of each of the cap shingles.

In some embodiments of the method, applying the granules comprises applying the granules substantially continuously to the moving web of shingle material such that the granules are applied along both the headlap portion and exposure portion of the cap shingles.

In embodiments, the method, further comprises applying a release tape along the self-seal strips to cover the self-seal strips, and stacking the cap shingles to form a bundle with the cap shingles arranged with a release tape covered self-seal strip of one cap shingle facing a release tape covered self-seal strip of another cap shingle.

In still another aspect, a roof comprises a plurality of cap shingles arranged in series in a ridgeline direction along a ridge or cap of the roof, each of the cap shingles comprising at least one layer of shingle material having an upper surface, a lower surface and side edges; the upper surface of the at least one layer of shingle material including a headlap portion and an exposure portion of the cap shingle; and self-seal strips disposed along the lower surface of the at least one layer of shingle material; wherein the self-seal strips are applied to the lower surface adjacent the side edges of the cap shingle, and extend along the side edges of the cap shingle in a ridgeline direction thereof; wherein the cap shingles are configured to bend along the ridgeline direction for installation of the cap shingles along the ridge, hip or cap of the roof, and are attached to the roof on opposite sides of the ridge, hip or cap.

In embodiments of the roof, the self-seal strips include sealing features that vary along the length of the self-seal strip; and in some embodiments, the self-seal strips are located at predetermined positions along the shingle or overlapping shingles.

In embodiments of the roof, the self-seal strips comprise a self-sealing adhesive, including asphalt, filled asphalt, polymer modified asphalts; bitumen, PSA, acrylic adhesives, butyl adhesives or combinations thereof.

In embodiments of the roof, the self-seal strips comprise a plurality of sealing features including a substantially continuous strip of self-sealing, material, a discontinuous pattern of a self-sealing adhesive, or combination thereof.

Accordingly, embodiments of shingles, and in particular cap shingles configured to fit over a ridge, hip or cap of a roof; roof systems, and methods for forming cap shingles materials that are directed to the above discussed and other aspects are disclosed. The foregoing and other advantages and aspects of the embodiments of the present disclosure will become apparent and more readily appreciated from the following detailed description and the claims, taken in conjunction with the accompanying drawings. Moreover, it is to be understood that both the foregoing summary of the disclosure and the following detailed description are exemplary and intended to provide further explanation without limiting the scope of the present disclosure.

BRIEF DESCRIPTION OF THE DRAWINGS

The accompanying drawings, which are included to provide a further understanding of the embodiments of the present disclosure, are incorporated in and constitute a part of this specification, illustrate embodiments of this disclosure, and together with the detailed description, serve to explain the principles of the embodiments discussed herein. No attempt is made to show structural details of this disclosure in more detail than may be necessary for a fundamental understanding of the exemplary embodiments discussed herein and the various ways in which they may be practiced.

FIG. 1A shows a cap shingle according to one embodiment of the present disclosure.

FIG. 1B shows the cap shingle of FIG. 1A applied along a ridge, hip or cap of a roof.

FIG. 2A shows a sheet of cap shingles of FIG. 1A formed with perforation or tear lines configured for separation of individual cap shingles from the sheet of cap shingles according to an additional embodiment of the present disclosure.

FIG. 2B is a top plan view the sheet of cap shingles of FIG. 2A.

FIG. 3 is a schematic view of a production line for production of cap shingles according to principles of the present disclosure.

FIG. 4 is a plan view schematically illustrating a pattern cutter arrangement for forming a cap shingle according to principles of the present disclosure.

FIG. 5 is a plan view schematically illustrating application of the self-seal strip with a release tape applied thereover along the sheet of shingle material for forming the cap shingles according to principles of the present disclosure.

FIG. 6 is an end view illustrating stacking of the cap shingles of the present disclosure.

DETAILED DESCRIPTION

The embodiments of the present disclosure will now be described in more detail with reference to the attached drawing figures.

FIGS. 1A-6 show embodiments of shingles, including cap shingles roof systems employing shingles and methods of forming cap shingles according to the present disclosure. As shown in FIG. 1A, in embodiments, the shingles 10 comprise cap shingles 12, for example, ridge, hip or cap shingles are configured for installation on a roof 5, positioned over and along a ridge 6, cap, or hip of the roof, as indicated in FIG. 1B, as part of a roof system. It will also be understood that the roof system may include other roofing materials including, but not limited to, other roofing types of shingles, roofing membranes, roofing tiles, etc. The cap shingles 12 illustrated in the figures are configured to be positioned over a roof deck 7 or roofing structure of the roof, such as by being placed onto an upper surface of the roof deck of the roof, and arranged in an overlapping relationship along a ridgeline direction (RD) of the roof; with the cap shingles bending over and covering the ridge 6, hip or cap of the roof. The shingles can be secured by adhesives or sealant materials, fasteners, connectors, other attachments, or combinations thereof.

In embodiments, the shingles formed according to the principles of the present disclosure will comprise cap shingles 12 such as shown in FIG. 1A, which are configured to withstand exposure to weather, including exposure to wind, rain, snow, extreme temperatures (e.g. above 100° F.) and extreme cold (e.g. below 0° F.). The cap shingles further are configured to withstand substantial forces due to wind uplift forces from high wind speeds of up to 110 mph (Class F in ASTM D3161), and in some embodiments, wind uplift forces from high wind speeds of up to 155 mph (Class G in ASTM D7158) when tested in accordance with ASTM D3161 (the Standard Test Method for Wind Resistance of Steep Slope Roofing Products (Fan-Induced Method)) and/or ASTM D7158 (the Standard Test Method for Wind Resistance of Sealed Asphalt Shingles (Uplift Force/Uplift Resistance Method).

For purposes of illustration and not limitation, FIG. 1A illustrates a single cap shingle 12. It will also be understood that the cap shingles 12 can be formed as a sheet 8 including multiple cap shingles 12 with perforation or tear lines (as indicated at 121 in FIGS. 2A-2B) separating the individual cap shingles. Multiple cap shingles can be provided in separable sheets for ease of transport.

In embodiments, as indicated in FIG. 1A, each cap shingle 12 includes at least a one layer of shingle material 14. In one embodiment, the cap shingle 12 can be made with a single layer fabric, and in other embodiments, the cap shingle 12 can be made with more than one layer, with the layer of shingle material 14 comprising a first layer and with a second layer and/or additional layers applied thereto. For example, the cap shingles 12 can include a laminated, double-layer fabric.

As further indicated in FIG. 1A, the layer of shingle material 14 has first 16 and second 18 side edges and front 20 and back 22 edges. The layer of shingle material 14 further includes an upper surface 24 having an exposure portion 26, and a headlap portion 28. The upper surface 24 can have a granulated surface or appearance, such as inducing a plurality of granulated roofing materials, or can incorporate additional materials for protection against exposure to weather (e.g. wind, rain, snow, heat, cold, sunlight (including ultraviolet (UV) light, visible light, infrared (IR) light), hail and other impacts, etc...), and/or to provide an aesthetic appearance. The headlap portion 28 is adjacent or proximate the back edge 22, and is configured to be overlapped by at least one additional cap shingle 12 or other roofing shingle arranged in a next higher course of shingles along the roof. The exposure portion 26 is configured to be exposed to weather.

The layer of shingle material 14 further includes a lower surface 54 (FIG. 2A), and in some embodiments, additional lower layers of shingle material can be applied along the lower surface 54, each of such lower layers configured to bend in an arc along an axis extending in a ridgeline direction (RD) extending from the back edge 22 to the front edge 20 for installation along a ridge, hip, or rake of a roof.

In the embodiment illustrated in FIG. 1A, the layer of shingle material 14 includes an adhesive 50 (indicated in dashed lines) that is applied adjacent the first 16 and second side 18 edges thereof on the lower surface 54. In one embodiment, the adhesive 50 comprises a substantially continuous strip of a self-sealing adhesive defining a self-seal strip 52 (indicated in dashed lines).

FIGS. 2A and 2B illustrate bottom and top plan views of a sheet of multiple cap shingles 12 according to embodiments of the present disclosure. As indicated in FIG. 2A, the self-seal strips 52 will be applied to a lower surface 54 of the cap shingle 12, disposed adjacent and along the first 16 and second side 18 edges. The self-seal strips 52 can define a plurality of sealant features 56 along the lower surface 54 of the cap shingle 12. The self-seal strips 52 further will be configured to be in registration with the first and second side edges of the cap shingle 12 along the ridgeline direction (RD) so that the sealant features 56 are located at selected positions relative to the length of the cap shingle 12, or relative to tooth positions of the cap shingle 12 (e.g. positions of teeth or other shapes formed along the exposure portion of the cap shingle), or relative to a shape of a backer applied to the cap shingle 12.

The layer of shingle material 14 also can include a strip or layer of a releasable covering such as a release tape 53 applied thereto. The release tape can include a thin sheet or film of a plastic or other, similar material that can be applied over the self-seal strips without substantially adhering to or interfering with the self-seal strips; providing protection to the self-seal strips and helping to prevent the self-sealing adhesive thereof from adhering to an adjacent cap shingle during storage and/or transport of the cap shingles, while also allowing for easy removal from the self-seal strip without disturbing or pulling the self-sealing adhesive therewith.

In an embodiment, as shown in FIG. 2A, the layer of shingle material 14 is shown to have a plurality of additional sealant or self-sealing adhesive lines 60 along the sides thereof, such that the shingles 12 can also be sealed in the cross-ridgeline (CD) direction for high wind resistance to wind blowing along the ridgeline direction. In this regard, FIG. 2A shows that the layer of shingle material 12 can have dual, generally parallel additional sealant lines 60 configured for sealing along the side of the shingle in the ridgeline (RD) and in the cross-ridgeline directions (CD).

The sealing features of the self-seal strip(s) 52 and/or the additional sealant lines 60 can vary along the length thereof. In this regard, in embodiments, the sealing features of each self-seal strip 52 or additional sealant lines 60 can comprise continuous lines of self-sealing adhesive. In other embodiments, the sealing features can include a discontinuous pattern of a self-sealing adhesive. For example, the adhesive of the self-seal strips and additional sealant lines 60 can be applied in discontinuous or dotted patterns along the first 16 and second side 18 edges of the layer of shingle material 14. Accordingly, water infiltrating under the cap shingle 12 can be drained out of gaps or spaces defined between portions of the discontinuous or dotted pattern(s) of the self-seal strips and/or the additional sealant lines.

According to embodiments of the present disclosure, with the placement of the self-seal strips of self-sealing adhesive along the side edges of the cap shingles, the cap shingle can have high wind resistance, and can be adhered along both sides of the ridgeline of a roof when installed. Moreover, the full side edges of the cap shingles can be sealed opposite sides of along the ridgeline of the roof, such that high wind resistance sufficient to withstand wind uplift forces from high wind speeds of 110 mph (Class F in ASTM D3161), and in some embodiments, wind uplift forces from high wind speeds of up to 155 mph (Class G in ASTM D7158) in accordance with ASTM D3161 and/or D7158 can be achieved, without the need to hand seal the side edges of the cap shingles.

In embodiments, the adhesive, of the self-seal strips and/or additional sealant lines can comprise a self-sealing adhesive including asphalt, filled asphalt, polymer modified asphalts; bitumen, PSA, acrylic adhesives, butyl adhesives or combinations thereof. In embodiments, the adhesive comprises a self-sealing adhesive including an additive including tackifiers, stabilizers, calcium carbonates, limestone fillers, graphites, intumescent additives, viscosity modified, oils, adhesion promoters, or combinations thereof. In one embodiment, the adhesive has a tackiness at temperatures above 70° F. In one embodiment, the adhesive has a tackiness at temperatures above 65° F. In one embodiment, the adhesive has a tackiness at temperatures above 60° F. In one embodiment, the adhesive has a tackiness at temperatures above 55° F. In one embodiment, the adhesive has a tackiness at temperatures above 50° F. In one embodiment, the adhesive has a tackiness at temperatures above 45° F. In one embodiment, for example, such as for cold weather installations, the adhesive has a tackiness at temperatures above 40° F. Other adhesive materials with a tackiness less than 40° F. also can be used.

According to the present disclosure, a method for forming a cap shingle 12 is provided. The method can include moving a ribbon or web of a shingle material 102 along a path 114, progressively applying self-sealing adhesive 50 to a surface of the moving web of the shingle material 102 to form a self-seal strip 52. In embodiments, a self-seal strip is applied adjacent the side edges of the web of shingle material, self-seal strip also can have continuous or varying features along its length, and repeatedly cutting the web of shingle material 102 in synchronization with progressively applying self-sealing adhesive to form roofing shingles 12 having self-seal strips 52 with features located in a ridgeline direction along each cap shingle at predetermined positions with respect to a length of each cap shingle 12 (FIGS. 3-5 ).

FIGS. 3-5 show various aspects of a production line or system 100 and methods of producing cap shingles. In one embodiment, a web of shingle material 102, having first and second surfaces, is moved along a processing path and continuous lines of adhesive are applied to form the self-seal strips 52 are both aligned in the same machine direction (MD). In embodiments, the web of shingle material 102 can include a fabric or other fibrous web or ribbon of shingle material. The machine direction applied self-seal strips 52 further will be aligned in the ridgeline direction (RD) (FIG. 1A) of the resultant cap shingles formed by the system 100 (FIGS. 3-5 ) when the cap shingles are installed along a roof ridge, cap or hip. While a single fabric web or layer of shingle material is illustrated, multiple layers of shingle materials, e.g., multiple fabric layers or webs, also can be used.

As indicated in FIG. 3 , the system 100 can include a tape applicator 104, a pattern cutter 106, a self-sealing adhesive applicator 108, such as a self-sealing adhesive applicator wheel 110, and chop cutters 112. The web of a shingle material 102 (which can include a woven, non-woven or laminated fabric or a ribbon of shingle material) is moved along a path 114. The tape applicator 104 applies a length of the release tape 53 tape to the web of shingle material 102 (FIGS. 3-4 ) as the web of shingle material 102 is moved in the machine direction. The web of shingle material 102 moves into engagement with a pattern cutter 106, e.g., for cutting shingle patterns into the web of shingle material 102. The pattern cutter 106 is shown as a rotating drum, though other cutters also can be used.

Thereafter, the web of shingle material 102 moves along the self-sealing adhesive applicator wheel 110, which moves, e.g., spins, in sync with the movement of the web of shingle material 102 to apply the self-sealing adhesive 50 thereto, that is to form one or more self-seal strips 52 that have continuous or varying features along a length of the web of shingle material 102. In synchronization with the application of the self-sealing adhesive to a surface of the web of shingle material with the self-sealing adhesive applicator wheel 110, chop cutters 112 can be used to repeatedly cut the web of shingle material 102 for forming individual cap shingles. The self-sealing adhesive of the self-seal strips is applied adjacent each of the side edges of the web of shingle material in the machine direction, which generally will correspond to the ridgeline direction defining the axis about which the resultant cap shingles are bent for installation over a ridge, hip or cap of a roof; and thus is not required to be formed in registration with the engagement of the web of shingle material by the chop cutters, as compared to some types of cap shingles where the sealant dot locations require a precise cut by the chop cutter using registration marks to ensure correct placement.

For example, in embodiments, the chop cutters can fully cut through the web of shingle material to form individual cap shingles. In other embodiments, the cap shingles can be formed as sheets 8 (FIGS. 2A-2B) with the at least some of the chop cutters configured to engage the web of shingle material at intervals so as to form perforation or tear lines 121 along which the cap shingles of each sheet can be separated into individual cap shingles, as indicated in FIGS. 2A-2B, and with at least one downstream chop cutter configured to engage and cut the web of shingle material into separate sheets of cap shingles.

According to this process, the headlap 28 and exposure 26 portions of each cap shingle 12 can be in the same direction as the self-sealing adhesive 52, e.g., along the machine direction (MD) of the web of shingle material 102, such that the adhesives 52 can be applied on the sides of the cap shingle 12 in the machine direction. As a result, the cap shingles 12 can be bent in the same machine direction, and along the ridgeline direction (RD) (FIG. 1A) of the roof during installation of the cap shingles for a ridge application, which is in contrary to the existing products that are bent in the cross machine direction.

Also, it will be possible to make cap shingles 12 having one layer or multiple layers. The cap shingles 12 additionally can be produced along a production line, as indicated in FIGS. 3-5 , without the need for registration of the application of the adhesive in the continuous or discontinuous patterns of the self-seal strips with the downstream pattern or chop cutter, which potentially can enable increased production rates. Further, this process can simplify the granule handling by allowing the same granules to be used in both the headlap 28 and the exposure 26 portions. Still further, this process can allow for creation of a color pattern or other aesthetic appearance of the cap shingles applied along the ridgeline of a roof that is consistent with the color pattern or aesthetic appearance of the other shingles covering the roof.

In addition, as shown in FIG. 6 , the shingles 12 can be packaged in a packing process by flipping one of the shingle such that the location of the adhesives 52 and the release tape can be aligned when packed back to back. In this regard, the shingles 12 are stacked back to back to form a bundle 120 of stacked cap shingles 12 that is adapted to provide for easy release of the shingles from their stacked arrangement of the bundle. In addition, where sheets of multiple cap shingles are provided, each cap shingle 12 of each sheet of multiple cap shingles can be separated from the additional cap shingles of the sheet of multiple cap shingles by tearing along perforation or tear lines 121 in the short direction prior to installation.

In some embodiments, the present disclosure includes a bundle 120 of a plurality of cap shingles 12. For example, in embodiments, the present disclosure includes a bundle 120 of 1 number to 50 cap shingles 12; while in other embodiments, the bundle can include 1 to 40 cap shingles, 1 to 30 cap shingles, 1 to 20 cap shingles, 1 to 10 cap shingles, 5 to 50 cap shingles, 5 to 40 cap shingles, 5 to 30 cap shingles, 5 to 20 cap shingles, 5 to 10 cap shingles, 10 to 50 cap shingles, 15 to 50 cap shingles, 20 to 50 cap shingles, 25 to 50 cap shingles, 30 to 50 cap shingles, 35 to 50 cap shingles, 40 to 50 cap shingles, 45 to 50 cap shingles, and/or other sizes or configurations of bundles. In addition, the bundles of cap shingles can include a plurality of individual cap shingles stacked together, or, in embodiments, can include a plurality of sheets of multiple cap shingles stacked back-to-back as indicated in FIG. 6 .

The present disclosure has been described herein in terms of examples that illustrate principles and aspects of the present disclosure. The skilled artisan will understand, however, that a wide gamut of additions, deletions, and modifications, both subtle and gross, may be made to the presented examples without departing from the spirit and scope of the present disclosure. 

1. A cap shingle comprising: a first layer of shingle material defining an upper surface of the cap shingle and having first and second side edges, a front edge, a back edge, an exposure portion, and a headlap portion adjacent the back edge; a second layer of shingle material positioned beneath the first layer; the second layer defining a lower surface of the cap shingle; wherein the first and second layers of shingle material are configured to bend in an arc along in a ridgeline direction extending from the back edge to the front edge for installation along a ridge, hip, or rake of a roof; and one or more strips of adhesive along the lower surface of the cap shingle; wherein the one or more strips of adhesive are positioned adjacent the first and second side edges of the first layer of shingle material extend in the ridgeline direction of the cap shingle between the front edge and the back edge.
 2. The cap shingle of claim 1, wherein the one or more strips of adhesive comprise a substantially continuous strip of a self-sealing adhesive, a discontinuous pattern of a self-sealing adhesive, or combinations thereof.
 3. The cap shingle of claim 1, wherein the one or more strips of adhesive comprise a self-sealing adhesive including asphalt, filled asphalt, polymer modified asphalts; bitumen, PSA, acrylic adhesives, butyl adhesives or combinations thereof.
 4. The cap shingle of claim 1, wherein the one or more strips of adhesive comprise an additive including tackifiers, stabilizers, calcium carbonates, limestone fillers, graphites, intumescent additives, viscosity modified, oils, adhesion promoters, or combinations thereof.
 5. The cap shingle of claim 1, wherein the one or more strips of adhesive comprise a self-seal adhesive having a tackiness at temperatures above 40° F.
 6. The cap shingle of claim 1, wherein the cap shingles are configured to withstand wind uplift forces from high wind speeds of up to 110 mph.
 7. The cap shingle of claim 1, wherein at least some of the one or more strips of adhesive comprise a discontinuous pattern that varies along a length of each self-seal strip, and includes gaps or spaces defined between portions of the discontinuous pattern.
 8. A method comprising: (a) moving a web of shingle material along a path in a machine direction; (b) applying an adhesive to a first surface of the web of shingle material to form strips of adhesive extending along the first surface of the web of shingle material, wherein the strips of adhesive are aligned in the machine direction; and (c) cutting the web of shingle material in synchronization with step (b) to form cap shingles having a front edge, a back edge, side edges and strips of adhesive positioned adjacent the side edges extending between the back edge and the front edge; wherein the cap shingles are configured to bend in the machine direction for installation of the cap shingles along a ridgeline of a ridge, hip or cap of a roof.
 9. The method of claim 8, further comprising applying a plurality of granules to second surface of the web of shingle material, wherein the second surface of the web of shingle material with the granules applied thereto is configured to define an exposure portion and a headlap portion of each of the cap shingles.
 10. The method of claim 9, wherein applying the granules comprises applying the granules substantially continuously to the moving web of shingle material such that the granules are applied along both the headlap portion and exposure portion of the cap shingles.
 11. The method of claim 8, further comprising applying a release tape along the strips of self-sealing adhesive, the release tape configured to cover the strips of self-sealing adhesive.
 12. The method of claim 11, further comprising stacking the cap shingles to form a bundle with the cap shingles arranged with a release tape covered strip of self-sealing adhesive of one cap shingle facing a release tape covered strip of self-sealing adhesive of another cap shingle.
 13. The method of claim 8, wherein applying the adhesive to the first surface of the web of shingle material comprises applying a self-seal adhesive adjacent each side edge of the web of shingle material.
 14. The method of claim 8, wherein applying the adhesive comprises applying a substantially continuous strip of a self-sealing adhesive, a discontinuous pattern of a self-sealing adhesive, or a combination thereof.
 15. A roof comprising: a plurality of cap shingles arranged along a ridge, hip, or cap of the roof, each of the cap shingles comprising: at least one layer of shingle material including: an upper surface material including a headlap portion and an exposure portion; a lower surface; and a front edge, back edge and side edges; and strips of adhesive disposed along the lower surface of the at least one layer of shingle material; wherein the strips of adhesive are applied to the lower surface adjacent the side edges of the cap shingle, and extend along the side edges of the cap shingle in a ridgeline direction thereof; wherein the cap shingles are configured to bend along the ridgeline direction for installation of the cap shingles along the ridge, hip or cap of the roof, and are attached to the roof on opposite sides of the ridge, hip or cap.
 16. The roof of claim 15, wherein the strips of adhesive comprise a plurality of sealing features that vary along a length of each strip of adhesive; and wherein at least some of the sealing features include a self-sealing adhesive.
 17. The roof of claim 15, wherein the strips of adhesive comprise one or more strips of a self-seal adhesive extending adjacent each of the side edges of each cap shingle between the front and back edges thereof.
 18. The roof of claim 15, wherein the strips of adhesive comprise a self-sealing adhesive, including asphalt, filled asphalt, polymer modified asphalts; bitumen, PSA, acrylic adhesives, butyl adhesives or combinations thereof.
 19. The roof of claim 15, wherein the strips of adhesive comprise a plurality of sealing features including a substantially continuous strip of self-sealing adhesive, a discontinuous pattern of self-sealing adhesive, or combination thereof.
 20. The roof of claim 15, wherein the cap shingles are configured to withstand wind speeds of up to 110 mph in accordance with ASTM D3161. 